448 results on '"John, Sajeev"'
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102. Resonant dipole–dipole interaction in confined and strong-coupling dielectric geometries
103. Light-trapping in dye-sensitized solar cells
104. Light-trapping in perovskite solar cells.
105. Why trap light?
106. Laser Action in Photonic Crystals.
107. Photonic Band Gap Materials: Towards an All-Optical Transistor.
108. Review on Recent Progress of Three-dimensional Optical Photonic Crystal.
109. Solar power conversion efficiency in modulated silicon nanowire photonic crystals
110. Finite difference discretization of semiconductor drift-diffusion equations for nanowire solar cells
111. Solar energy trapping with modulated silicon nanowire photonic crystals
112. Light trapping and solar energy harvesting with 3D photonic crystals
113. Solar energy trapping and harvesting in thin-film photonic crystals
114. Effective optical response of silicon to sunlight in the finite-difference time-domain method
115. Optical pulse dynamics for quantum-dot logic operations in a photonic-crystal waveguide
116. Light control at will: microchips that make use of light instead of electrons could outperform their electronic counterparts if light flow can be controlled at will. Photonic crystals are instrumental in achieving such a manoeuvre
117. Quantum-dot all-optical logic in a structured vacuum
118. Coherence and antibunching in a trapped interacting Bose-Einstein condensate
119. Self-consistent Maxwell-Bloch theory of quantum-dot-population switching in photonic crystals
120. Sculpturing of photonic crystals by ion beam lithography: towards complete photonic bandgap at visible wavelengths
121. Microscopic theory of multiple-phonon-mediated dephasing and relaxation of quantum dots near a photonic band gap
122. Reflection of Subdiffusive Light from 3-D Disordered Photonic Crystals
123. Switching dynamics and ultrafast inversion control of quantum dots for on-chip optical information processing
124. Ultrafast Population Switching of Quantum Dots in a Structured Vacuum
125. Optical wavelength converters for photonic band gap microcircuits
126. Ultra-Fast Quantum Dot Inversion and Switching in a Structured Electromagnetic Vacuum
127. Photonic Band Gap Materials: Light Trapping Crystals
128. Photonic Band Gap Materials: Nonlinear Optics with Trapped Light
129. Metallic photonic-band-gap filament architectures for optimized incandescent lighting
130. Exceptional Reduction of the Diffusion Constant in Partially Disordered Photonic Crystals
131. Circuits for light in holographically defined photonic-band-gap materials
132. Light trapping and absorption optimization in certain thin-film photonic crystal architectures
133. Compact optical one-way waveguide isolators for photonic-band-gap microchips
134. Silicon Photovoltaics Using Conducting Photonic Crystal Back‐Reflectors
135. Broadband optical coupling between microstructured fibers and photonic band gap circuits: Two-dimensional paradigms
136. Coherent all-optical switching by resonant quantum-dot distributions in photonic band-gap waveguides
137. Nonlinear Bloch waves in metallic photonic band-gap filaments
138. Photonic Band Gap Materials: Engineering Light-Matter Interactions
139. Electromagnetically Induced Exciton Mobility in a Photonic Band Gap
140. Exciton dressing and capture by a photonic band edge
141. Molding light flow from photonic band gap circuits to microstructured fibers
142. Photonic Band Gap Synthesis by Optical Phase Mask Lithography
143. Anomalous-refraction-induced strong resonances and enhancement of absorption in thin-film photonic crystals
144. Photonic Architectures for Equilibrium High-Temperature Bose-Einstein Condensation in Dichalcogenide Monolayers.
145. Localized light orbitals: Basis states for three-dimensional photonic crystal microscale circuits
146. Nonlinear Bloch waves in resonantly doped photonic crystals
147. Photonic Band Gap Materials: Engineering the Fundamental Properties of Light
148. Diamond photonic band gap synthesis by umbrella holographic lithography
149. Single-Emitter Laser in a Photonic Band Gap Micro-Chip
150. Photonic band-gap formation by optical-phase-mask lithography
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